A refrigerator appliance includes a drawer slide synchronizer with a first cable and a second cable. A first bearing is mounted to a first one of a pair of drawer slides, and a second bearing is mounted to a second one of the pair of drawer slides. The first and second cables contact the first bearing, and the first and second cables also contact the second bearing.

A pull-out system comprises at least two pull-out guides, each pull-out guide having a stationary rail and at least one rail that can be moved relative to the stationary rail, means for synchronizing the movement of the movable rails being provided, said means comprising at least one flexible deflector element for synchronization. In this way, the movement of wide or heavy pull-out units can be synchronized in a simple manner, producing little noise.

A sliding assembly includes two pull-out guides which can be secured to opposite side walls and each of which includes a stationary guide rail, a middle rail movably mounted on the guide rail, and a running rail movably mounted on the middle rail. A first slidable element is retained on the two running rails of the two pull-out guides, and a second slidable element is retained on the two middle rails of the two pull-out guides. By moving one slidable element, the other slidable element can also be moved.

A telescopic rail has first, second, and third rail elements, and a drive device. The first and second rail elements are mounted together such that the first and second rail elements are linearly displaceable relative to one another in and counter to a pull-out direction. The third and second rail elements are mounted together such that the third and second rail elements are linearly displaceable relative to one another. The drive device, mounted on the first rail element, causes a linear movement of the second rail element relative to the first rail element. A traction element, fixed to the first and third rail elements, is guided on the second rail element parallel to the pull-out direction such that a displacement movement of the second rail element relative to the first rail element leads to a displacement movement of the third rail element relative to the second rail element.

An undermount slide assembly includes an outer slide segment, an intermediate slide segment and an inner slide segment. The outer slide segment has a web, a first flange and a second flange. The web defines an upper surface that is mountable to a first object. The intermediate slide segment has a web, a first flange and a second flange. The web is received within a space defined between the first and second flanges of the outer slide segment. At least portions of the first and second flanges of the intermediate slide segment extend below the first and second flanges of the outer slide segment. The web and the first and second flanges of the intermediate slide segment define a space therebetween. An inner slide segment is received within the space defined between the web and the first and second flanges of the intermediate slide segment.

An embodiment of the present invention provides a pull-out system comprising: at least two slide rails each having a fixed rail, an intermediate rail slidably disposed on the fixed rail, and a moving rail slidably disposed on the intermediate rail; and a synchronization means for synchronizing movements of the respective slide rails with each other.

A drawer runner that can easily be installed and is able to bear heavy loads for the floor mounting of pharmacy cabinets has a carcass rail, a central rail and a pull-out rail. The pull-out rail is accommodated so that it can move in the central rail and, in turn, is accommodated so that it can move in the carcass rail in a nested manner, and is synchronized and damped.